certificates/scep/api/api.go

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package api
import (
"context"
"crypto/x509"
"encoding/base64"
"io"
"io/ioutil"
"net/http"
"net/url"
"strings"
"github.com/go-chi/chi"
"github.com/smallstep/certificates/api"
"github.com/smallstep/certificates/authority/provisioner"
"github.com/smallstep/certificates/scep"
"go.mozilla.org/pkcs7"
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"github.com/pkg/errors"
microscep "github.com/micromdm/scep/v2/scep"
)
const (
opnGetCACert = "GetCACert"
opnGetCACaps = "GetCACaps"
opnPKIOperation = "PKIOperation"
// TODO: add other (more optional) operations and handling
)
const maxPayloadSize = 2 << 20
type nextHTTP = func(http.ResponseWriter, *http.Request)
const (
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certChainHeader = "application/x-x509-ca-ra-cert"
leafHeader = "application/x-x509-ca-cert"
pkiOperationHeader = "application/x-pki-message"
)
// SCEPRequest is a SCEP server request.
type SCEPRequest struct {
Operation string
Message []byte
}
// SCEPResponse is a SCEP server response.
type SCEPResponse struct {
Operation string
CACertNum int
Data []byte
Certificate *x509.Certificate
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Error error
}
// Handler is the SCEP request handler.
type Handler struct {
Auth scep.Interface
}
// New returns a new SCEP API router.
func New(scepAuth scep.Interface) api.RouterHandler {
return &Handler{scepAuth}
}
// Route traffic and implement the Router interface.
func (h *Handler) Route(r api.Router) {
getLink := h.Auth.GetLinkExplicit
r.MethodFunc(http.MethodGet, getLink("{provisionerID}", false, nil), h.lookupProvisioner(h.Get))
r.MethodFunc(http.MethodPost, getLink("{provisionerID}", false, nil), h.lookupProvisioner(h.Post))
}
// Get handles all SCEP GET requests
func (h *Handler) Get(w http.ResponseWriter, r *http.Request) {
request, err := decodeSCEPRequest(r)
if err != nil {
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writeError(w, errors.Wrap(err, "invalid scep get request"))
return
}
ctx := r.Context()
var response SCEPResponse
switch request.Operation {
case opnGetCACert:
response, err = h.GetCACert(ctx)
case opnGetCACaps:
response, err = h.GetCACaps(ctx)
case opnPKIOperation:
// TODO: implement the GET for PKI operation? Default CACAPS doesn't specify this is in use, though
default:
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err = errors.Errorf("unknown operation: %s", request.Operation)
}
if err != nil {
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writeError(w, errors.Wrap(err, "scep get request failed"))
return
}
writeSCEPResponse(w, response)
}
// Post handles all SCEP POST requests
func (h *Handler) Post(w http.ResponseWriter, r *http.Request) {
request, err := decodeSCEPRequest(r)
if err != nil {
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writeError(w, errors.Wrap(err, "invalid scep post request"))
return
}
ctx := r.Context()
var response SCEPResponse
switch request.Operation {
case opnPKIOperation:
response, err = h.PKIOperation(ctx, request)
default:
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err = errors.Errorf("unknown operation: %s", request.Operation)
}
if err != nil {
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writeError(w, errors.Wrap(err, "scep post request failed"))
return
}
writeSCEPResponse(w, response)
}
func decodeSCEPRequest(r *http.Request) (SCEPRequest, error) {
defer r.Body.Close()
method := r.Method
query := r.URL.Query()
var operation string
if _, ok := query["operation"]; ok {
operation = query.Get("operation")
}
switch method {
case http.MethodGet:
switch operation {
case opnGetCACert, opnGetCACaps:
return SCEPRequest{
Operation: operation,
Message: []byte{},
}, nil
case opnPKIOperation:
var message string
if _, ok := query["message"]; ok {
message = query.Get("message")
}
// TODO: verify this; it seems like it should be StdEncoding instead of URLEncoding
decodedMessage, err := base64.URLEncoding.DecodeString(message)
if err != nil {
return SCEPRequest{}, err
}
return SCEPRequest{
Operation: operation,
Message: decodedMessage,
}, nil
default:
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return SCEPRequest{}, errors.Errorf("unsupported operation: %s", operation)
}
case http.MethodPost:
body, err := ioutil.ReadAll(io.LimitReader(r.Body, maxPayloadSize))
if err != nil {
return SCEPRequest{}, err
}
return SCEPRequest{
Operation: operation,
Message: body,
}, nil
default:
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return SCEPRequest{}, errors.Errorf("unsupported method: %s", method)
}
}
// lookupProvisioner loads the provisioner associated with the request.
// Responds 404 if the provisioner does not exist.
func (h *Handler) lookupProvisioner(next nextHTTP) nextHTTP {
return func(w http.ResponseWriter, r *http.Request) {
name := chi.URLParam(r, "provisionerID")
provisionerID, err := url.PathUnescape(name)
if err != nil {
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api.WriteError(w, errors.Errorf("error url unescaping provisioner id '%s'", name))
return
}
p, err := h.Auth.LoadProvisionerByID("scep/" + provisionerID)
if err != nil {
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api.WriteError(w, err)
return
}
prov, ok := p.(*provisioner.SCEP)
if !ok {
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api.WriteError(w, errors.New("provisioner must be of type SCEP"))
return
}
ctx := r.Context()
ctx = context.WithValue(ctx, scep.ProvisionerContextKey, scep.Provisioner(prov))
next(w, r.WithContext(ctx))
}
}
// GetCACert returns the CA certificates in a SCEP response
func (h *Handler) GetCACert(ctx context.Context) (SCEPResponse, error) {
certs, err := h.Auth.GetCACertificates()
if err != nil {
return SCEPResponse{}, err
}
if len(certs) == 0 {
return SCEPResponse{}, errors.New("missing CA cert")
}
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response := SCEPResponse{
Operation: opnGetCACert,
CACertNum: len(certs),
}
if len(certs) == 1 {
response.Data = certs[0].Raw
} else {
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// create degenerate pkcs7 certificate structure, according to
// https://tools.ietf.org/html/rfc8894#section-4.2.1.2, because
// not signed or encrypted data has to be returned.
data, err := microscep.DegenerateCertificates(certs)
if err != nil {
return SCEPResponse{}, err
}
response.Data = data
}
return response, nil
}
// GetCACaps returns the CA capabilities in a SCEP response
func (h *Handler) GetCACaps(ctx context.Context) (SCEPResponse, error) {
caps := h.Auth.GetCACaps(ctx)
response := SCEPResponse{
Operation: opnGetCACaps,
Data: formatCapabilities(caps),
}
return response, nil
}
// PKIOperation performs PKI operations and returns a SCEP response
func (h *Handler) PKIOperation(ctx context.Context, request SCEPRequest) (SCEPResponse, error) {
// parse the message using microscep implementation
microMsg, err := microscep.ParsePKIMessage(request.Message)
if err != nil {
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// return the error, because we can't use the msg for creating a CertRep
return SCEPResponse{}, err
}
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// this is essentially doing the same as microscep.ParsePKIMessage, but
// gives us access to the p7 itself in scep.PKIMessage. Essentially a small
// wrapper for the microscep implementation.
p7, err := pkcs7.Parse(microMsg.Raw)
if err != nil {
return SCEPResponse{}, err
}
// copy over properties to our internal PKIMessage
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msg := &scep.PKIMessage{
TransactionID: microMsg.TransactionID,
MessageType: microMsg.MessageType,
SenderNonce: microMsg.SenderNonce,
Raw: microMsg.Raw,
P7: p7,
}
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if err := h.Auth.DecryptPKIEnvelope(ctx, msg); err != nil {
return SCEPResponse{}, err
}
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// NOTE: at this point we have sufficient information for returning nicely signed CertReps
csr := msg.CSRReqMessage.CSR
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if msg.MessageType == microscep.PKCSReq {
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challengeMatches, err := h.Auth.MatchChallengePassword(ctx, msg.CSRReqMessage.ChallengePassword)
if err != nil {
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return h.createFailureResponse(ctx, csr, msg, microscep.BadRequest, errors.New("error when checking password"))
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}
if !challengeMatches {
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// TODO: can this be returned safely to the client? In the end, if the password was correct, that gains a bit of info too.
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return h.createFailureResponse(ctx, csr, msg, microscep.BadRequest, errors.New("wrong password provided"))
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}
}
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// TODO: check if CN already exists, if renewal is allowed and if existing should be revoked; fail if not
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certRep, err := h.Auth.SignCSR(ctx, csr, msg)
if err != nil {
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return h.createFailureResponse(ctx, csr, msg, microscep.BadRequest, errors.Wrap(err, "error when signing new certificate"))
}
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response := SCEPResponse{
Operation: opnPKIOperation,
Data: certRep.Raw,
Certificate: certRep.Certificate,
}
return response, nil
}
func formatCapabilities(caps []string) []byte {
return []byte(strings.Join(caps, "\r\n"))
}
// writeSCEPResponse writes a SCEP response back to the SCEP client.
func writeSCEPResponse(w http.ResponseWriter, response SCEPResponse) {
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if response.Error != nil {
api.LogError(w, response.Error)
}
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if response.Certificate != nil {
api.LogCertificate(w, response.Certificate)
}
w.Header().Set("Content-Type", contentHeader(response))
_, err := w.Write(response.Data)
if err != nil {
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writeError(w, errors.Wrap(err, "error when writing scep response")) // This could end up as an error again
}
}
func writeError(w http.ResponseWriter, err error) {
scepError := &scep.Error{
Message: err.Error(),
Status: http.StatusInternalServerError, // TODO: make this a param?
}
api.WriteError(w, scepError)
}
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func (h *Handler) createFailureResponse(ctx context.Context, csr *x509.CertificateRequest, msg *scep.PKIMessage, info microscep.FailInfo, failError error) (SCEPResponse, error) {
certRepMsg, err := h.Auth.CreateFailureResponse(ctx, csr, msg, scep.FailInfoName(info), failError.Error())
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if err != nil {
return SCEPResponse{}, err
}
return SCEPResponse{
Operation: opnPKIOperation,
Data: certRepMsg.Raw,
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Error: failError,
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}, nil
}
func contentHeader(r SCEPResponse) string {
switch r.Operation {
case opnGetCACert:
if r.CACertNum > 1 {
return certChainHeader
}
return leafHeader
case opnPKIOperation:
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return pkiOperationHeader
default:
return "text/plain"
}
}